You are here

Головна » 2017 » AGROBIOLOGY №1 2017

Ecological state of modal black soil under different systems of mechanical treatment in organic farming

The level of catalase under a differential and surface tillage in a crop rotation is correspondently 0.9-1.3 and 1.9-3.0 % lower. In case of a subsurface cultivator plowing it is 4.2-6.7 % higher than in the control. The level of urea enzyme under a differential and a surface disk tillage is 3.2-4.7 % and 6,0-7,4 % higher, respectively, and it is 3.2-3.4 % lower under subsurface cultivator plowing than in the control.

Protease activity in arable soil layer decreases with a reduction of mechanical cultivation intensity in a crop rotation. Under a surface disc tillage this index was 4.7-8.2 % lower than in the control.

Phosphatase activity was almost the same under a different depth beard and a differential soil tillage. A surface disc and beardless tillage exceeded the control by this index by 5.3-7.7 and 10.5-15.4 %, respectively. Dehydrogenase activity of arable soil layer was almost the same under a different depth beard and a beardless tillage. This index was 2.2-2.9 % higher than in the control under a differential tillage.

Polyphenol oxidase activity in a top soil in a crop rotation on the whole under a differential and a surface tillage was, respectively, 5.1-6.9 and 12.9-18.4 % higher than in the control. This index was almost at the same level under a subsurface cultivator and a beard tillage.

Protease activity in arable soil layer decreases with a reduction of mechanical cultivation intensity in a crop rotation.

A surface and a beardless tillage, as compared with plowing, stimulate the growth of microorganisms in the upper part (0-10 cm) of a top soil. The amount of microorganisms which utilize mineral forms of nitrogen (КАА) under a beardless and a surface disc tillage in a crop rotation increased, by 26 and 15 %, respectively, in comparison with a different depth plowing.

Extension of correlation of general number of microorganisms using mineral forms of nitrogen to the amount of microorganisms assimilating the nitrogen of organic compounds (КАА : MPА) under the second and the third variants of tillage, compared with the control, proves the displacement of organic substance transformation processes towards increased humus decomposition.

There were correspondently 11-14 and 7-9 % more of actinomyces in a top soil under a beardless and a surface tillage than under a different depth plowing.

Подпись: 148A general amount of bacteria on the peptone and glucose agar with soil decoction (PGAP) is the highest under a surface disc tillage and the lowest under a beardless tillage. The value of a quantity of a pedotrophic coefficient (PGAP: MPA) that characterizes the degree of assimilation of soil organic substance by a bacterial flora is the lowest under a beardless tillage and the highest under a plowing.

Grain productivity in every hectare of a tilled area of a crop rotation didn’t differ significantly under a plowing, a differential tillage and a disking and made correspondently 3.39; 3.37 and 3.44 t/ha. The replacement of a plough for a subsurface cultivator caused decrease in this index by 0.38 t/ha or 11.2 %.

The following weight of dry matter in the main products and by-products is received under a plowing, a beardless tillage, a differential loosening and a disking in a crop rotation, correspondingly: 6.93; 6.17; 6.89 and 7.07 t/ha.

Key words: enzymes, microorganisms, bioactivity, soil, tillage, productivity.

 

Panchenko O.


Prymak I. http://orcid.org/0000-0002-0094-3469


Panchenko I.


Reference: 

1. Tanchyk, S.P., Tsiuk, O.A., Tsiuk, O.A., Tsentylo, L.V. (2015). Naukovi osnovy zemlerobstva [Scientific basis of crop farming systems]. Vinnytsia, LLC Nilan, 314 p.

2. Moskalevska, Yu.P., Patyka, M.V. Karpenko, O.Yu. (2013). Osoblyvosti formuvannja mikrobioty chornozemu typovogo Lisostepu Ukrai'ny ta jogo biologichnoi' aktyvnosti pry zastosuvanni riznyh system zemlerobstva [Particalarities of microbiota forming in modal black soil in Wooded Steppe of Ukraine and its bioactivity under different systems of crop farming]. Naukovi praci Instytutu bioenergetychnyh kul'tur i cukrovyh burjakiv [Scientific papers of the Institute of Bioenergy Crops and Sugar Beet], no. 17, pp. 324-329.

3. Tsiuk, O.A. (2009). Vplyv system zemlerobstva na vmist gumusu ta chysel'nist' mikroorganizmiv u chornozemi typovomu [The influence of crop farming systems on the humus content and on the guantity of microorganisms in modal black soil]. Agrohimija i g'runtoznavstvo [Agrockemistry and pedology], no. 72, pp. 92-96.

4. Hudz, V.P., Prymak, I.D., Tanchyk, S.P., Shuvar, I.A. (2014). Zemlerobstvo [Crop Farming]. Centr uchbovoi' literatury [Learning resource centre]. Kiev 480 p.

5. Prymak, I.D., Panchenko, O.B. ( 2015). Zmina mikrobnogo cenozu chornozemu typovogo za riznyh system osnovnogo obrobitku g'runtu i udobrennja u specializovanij zernoprosapnij sivozmini Central'nogo Lisostepu Ukrai'ny [Change of microbian cenosis of modal black soil under different systems of main soil tillage and fertilization in a specialized grain horse-hoeing crop rotation of the central Woded Steppe of Ukraine]. Zbirnyk naukovyh prac' Podil's'kogo derzhavnogo agrarno-tehnichnogo universytetu «Sil's'kogospodars'ki nauky» [The collection of research papers of Podilskyi state agrotechnical university “Agricultural sciences”], no. 23, pp. 4-14.

6. Kryzhanivskyi, V.H., Kostohryz, P.V. (2010). Biologichna aktyvnist' chornozemu opidzolenogo v lanci p’jatypil'noi' sivozminy zalezhno vid zahodiv osnovnogo obrobitku gruntu [Bioactivity of posolizated black soil in five-course crop rotation according to main soil tillage actions]. Zb. nauk. pr. Bilocerkivs'kogo DAU [Z.B. The research paper of Bila Tserkva state agrarian university], no. 22 (69), pp. 16-18.

7. Moskalevska, Yu., Patyka, V. (2014). Influence of agrarian systems on the microbiological transformation of organic water in typical thernozem under sugar beetgrowing, vol. S11401-S11401-009. Available at: http:// www.sworld.Com. Valejoumal/j11401. Pdf. Odessa.

8. Hargrove, W.L. Winter legumes as anitrogen source for no-till grain sorghum. Agron. L., 1986, no.78, pp. 70-74.

9. Tebrugge, E., Bohusen, A. (1997). Crop gields and economic aspects of no-tillage compared to plough tillage: Results of long-term sail tillage field experience in Germany. [“Experiances with the application of no-tillage crop production in the west-Europen countries”] Boingnevielle, pp. 25043 (in Germany).

10. Moskalevska, Yu. P., Patyka, M.V., Karpenko, O. Yu., Rozhko, V.M., Tauchyk, S.P., Zhytkevych, N.V. (2013). Osoblyvosti formuvannja mikrobioty chornozemu typovogo Lisostepu Ukrai'ny ta jogo biologichnoi' aktyvnosti pry zastosuvanni riznyh system zemlerobstva [Particularities of microbiota forming in modal black soil in Wooded Steppe of Ukraine and its bioactivity under different systems of crop farming]. Naukovі pracі Іnstitutu bіoenergetichnih kul'tur і cukrovih burjakіv [The research papers of the institute of Bioenergy Crops and Sugar beets], no. 17, pp. 324-329.

11. Moskalevska, Yu. P., Patyka, M.V. (2014). Aktyvnist' mikrobnogo biomu chornozemu typovogo v posivah burjakiv cukrovyh za riznyh tehnologij vyroshhuvannja [Activity of microbian biome of modal black soil under sugar beets sowing under differelut technologies of growing]. Zbirnyk naukovyh prac' NNC «Instytut zemlerobstva NAAN» [The collection of research papers of Leaning Scientific Centre “Crop Framing Institute of The National Academy of Agrarian Sciences”], no. 4, pp. 39-45.

12.Tsiuk, O.A. (2014). Teoretychne obg'runtuvannja ta rozrobka systemy ekologichnogo zemlerobstva v Lisostepu Ukrai'ny: avtoref. dys. na zdobuttja nauk. stupenja doktora s.-g. nauk: spec. 06.01.01 « Zagal'ne zemlerobstvo» [Theoretical ground and develop went of the systems of ecological crop farming in the Wooded Steppe of Ukraine. Puplished summary of a thesis for an academic degree of the Dr. Science in Agriculture]. Kyiv, 41 p.

13. Zviagintsev, D.G. (1991). Metody pochvennoj mikrobiologii i biohimii [The methods of soil microbiology and biochemistry]. Moscow, 303 p.

 

Download this article: 
AttachmentSize
PDF icon panchenko_1_2017.pdf374.78 KB
YEAR: 
2017
AGROBIOLOGY №1 2017